Abstract
The chemical bath deposition method was used to synthesize Eu-doped ZnO on p-type (100) silicon. The SEM image shows the formation of micropod-like ZnO. EDX and XPS measurements showed an increase in the Eu concentration up to 2.54% and the simultaneous presence of Eu3+ and Eu2+. XRD analysis confirmed that the interstitial Eu3+ ions distorted the four tetrahedral bonds, and the substitution of Eu2+ ions increased the c lattice parameter. Only Eu3+5D0→7F2 transition-related emission was observed, so a weak transfer energy from the ZnO matrix to the Eu ion occurred. However, the competition between the emission of deep-level defects in the host matrix and that of Eu3+ ions deforms the visible emission towards the red color. The I–V measurements of the Eu-ZnO/p-Si heterojunctions showed diode-like behavior with a low rectification ratio and a barrier height around 0.84 eV not affected by the Eu concentration.
•Eu-doped ZnO micropods on p-type (100) substrate have been elaborated by chemical bath deposition (CBD) method.•Simultaneous presence of Eu3+ and Eu2+ into ZnO matrix is confirmed by XPS.•No efficient transfer energy from the ZnO matrix to Eu ion has been occurred.•Eu doped ZnO micropods is a possible candidate for future orange emitting light sources.•The barrier height of Eu-ZnO/p-Si heterojunctions is not affected by the variation of Eu concentration.